Nanophotonic particle simulation and inverse design using artificial neural networks

A newcomer's guide to deep learning for inverse design in nano-photonics

Khaireh-Walieh, Abdourahman
Langevin, Denis
Bennet, Pauline
Teytaud, Olivier
Moreau, Antoine
Wiecha, Peter R.

September 2023

23 pages, 15 figuresNanophotonic devices manipulate light at sub-wavelength scales, enabling tasks s...

Deep learning in nano-photonics: inverse design and beyond

Wiecha, Peter
Arbouet, Arnaud
Girard, Christian
Muskens, Otto L.

May 2021

Review article of 17 pages, 7 figures, 4 info-boxesInternational audienceDeep learning in the contex...

A newcomer's guide to deep learning for inverse design in nano-photonics

Khaireh-Walieh, Abdourahman
Langevin, Denis
Bennet, Pauline
Teytaud, Olivier
Moreau, Antoine
Wiecha, Peter

September 2023

23 pages, 15 figuresNanophotonic devices manipulate light at sub-wavelength scales, enabling tasks s...

Nanophotonic particle simulation and inverse design using artificial neural networks

Cano-Renteria, Fidel
Tegmark, Max
Soljacic, Marin
Joannopoulos, John D.
Peurifoy, John
Shen, Yichen
Jing, Li
Yang, Yi
DeLacy, Brendan G.

March 2019

Artificial neural networks for inverse design of resonant nanophotonic components with oscillatory loss landscapes

Lenaerts Joeri
Pinson Hannah
Ginis Vincent

November 2020

Machine learning offers the potential to revolutionize the inverse design of complex nanophotonic co...

The physics of artificial intelligence

Peurifoy, John Edward.

January 2018

Thesis: S.B., Massachusetts Institute of Technology, Department of Physics, 2018Cataloged from PDF v...

Deep learning enabled inverse design in nanophotonics

So Sunae
Badloe Trevon
Noh Jaebum
Bravo-Abad Jorge
Rho Junsuk

February 2020

Deep learning has become the dominant approach in artificial intelligence to solve complex data-driv...

Photonic-dispersion neural networks for inverse scattering problems

Tongyu Li
Ang Chen
Lingjie Fan
Minjia Zheng
Jiajun Wang
Guopeng Lu
Maoxiong Zhao
Xinbin Cheng
Wei Li
Xiaohan Liu
Haiwei Yin
Lei Shi
Jian Zi

July 2021

Abstract Inferring the properties of a scattering objective by analyzing the optical far-field respo...

Training Deep Neural Networks for the Inverse Design of Nanophotonic Structures

Dianjing Liu (4918873)
Yixuan Tan (4918879)
Erfan Khoram (4918876)
Zongfu Yu (1424701)

February 2018

Data inconsistency leads to a slow training process when deep neural networks are used for the inver...

Artificial neural networks enabled by nanophotonics

Zhang, Q
Yu, H
Barbiero, M
Wang, B
Gu, M

January 2019

The growing demands of brain science and artificial intelligence create an urgent need for the devel...

Machine learning for the free-form inverse design of metamaterials

Gahlmann, Timo

January 2022

We present our work on using deep neural networks for the prediction of the optical properties of na...

Machine learning for the free-form inverse design of metamaterials

Gahlmann, Timo

January 2022

We present our work on using deep neural networks for the prediction of the optical properties of na...

Deep learning meets nanophotonics: A generalized Accurate predictor for near fields and far fields of arbitrary 3D nanostructures

Wiecha, Peter R.
Muskens, Otto L.

January 2020

Deep artificial neural networks are powerful tools with many possible applications in nanophotonics....

Inverse design with flexible design targets via deep learning: Tailoring of electric and magnetic multipole scattering from nano-spheres

Estrada-Real, Ana
Khaireh-Walieh, Abdourahman
Urbaszek, Bernhard
Wiecha, Peter R.

December 2022

10 pages, 9 figuresDeep learning is a promising, ultra-fast approach for inverse design in nano-opti...

Overcoming Limits in Nano-Optical Simulations, Design and Experiments Using Deep Learning

Wiecha, Peter
Larrieu, Guilhem
Lecestre, Aurélie
Muskens, Otto

July 2021

International audienceSubwavelength small particles can be tailored to fulfill manifold functionalit...

A newcomer's guide to deep learning for inverse design in nano-photonics

Khaireh-Walieh, Abdourahman
Langevin, Denis
Bennet, Pauline
Teytaud, Olivier
Moreau, Antoine
Wiecha, Peter R.

September 2023

23 pages, 15 figuresNanophotonic devices manipulate light at sub-wavelength scales, enabling tasks s...

Deep learning in nano-photonics: inverse design and beyond

Wiecha, Peter
Arbouet, Arnaud
Girard, Christian
Muskens, Otto L.

May 2021

Review article of 17 pages, 7 figures, 4 info-boxesInternational audienceDeep learning in the contex...

A newcomer's guide to deep learning for inverse design in nano-photonics

Khaireh-Walieh, Abdourahman
Langevin, Denis
Bennet, Pauline
Teytaud, Olivier
Moreau, Antoine
Wiecha, Peter

September 2023

23 pages, 15 figuresNanophotonic devices manipulate light at sub-wavelength scales, enabling tasks s...

Nanophotonic particle simulation and inverse design using artificial neural networks

Cano-Renteria, Fidel
Tegmark, Max
Soljacic, Marin
Joannopoulos, John D.
Peurifoy, John
Shen, Yichen
Jing, Li
Yang, Yi
DeLacy, Brendan G.

March 2019

Artificial neural networks for inverse design of resonant nanophotonic components with oscillatory loss landscapes

Lenaerts Joeri
Pinson Hannah
Ginis Vincent

November 2020

Machine learning offers the potential to revolutionize the inverse design of complex nanophotonic co...

The physics of artificial intelligence

Peurifoy, John Edward.

January 2018

Thesis: S.B., Massachusetts Institute of Technology, Department of Physics, 2018Cataloged from PDF v...

Deep learning enabled inverse design in nanophotonics

So Sunae
Badloe Trevon
Noh Jaebum
Bravo-Abad Jorge
Rho Junsuk

February 2020

Deep learning has become the dominant approach in artificial intelligence to solve complex data-driv...

Photonic-dispersion neural networks for inverse scattering problems

Tongyu Li
Ang Chen
Lingjie Fan
Minjia Zheng
Jiajun Wang
Guopeng Lu
Maoxiong Zhao
Xinbin Cheng
Wei Li
Xiaohan Liu
Haiwei Yin
Lei Shi
Jian Zi

July 2021

Abstract Inferring the properties of a scattering objective by analyzing the optical far-field respo...

Training Deep Neural Networks for the Inverse Design of Nanophotonic Structures

Dianjing Liu (4918873)
Yixuan Tan (4918879)
Erfan Khoram (4918876)
Zongfu Yu (1424701)

February 2018

Data inconsistency leads to a slow training process when deep neural networks are used for the inver...

Artificial neural networks enabled by nanophotonics

Zhang, Q
Yu, H
Barbiero, M
Wang, B
Gu, M

January 2019

The growing demands of brain science and artificial intelligence create an urgent need for the devel...

Machine learning for the free-form inverse design of metamaterials

Gahlmann, Timo

January 2022

We present our work on using deep neural networks for the prediction of the optical properties of na...

Machine learning for the free-form inverse design of metamaterials

Gahlmann, Timo

January 2022

We present our work on using deep neural networks for the prediction of the optical properties of na...

Deep learning meets nanophotonics: A generalized Accurate predictor for near fields and far fields of arbitrary 3D nanostructures

Wiecha, Peter R.
Muskens, Otto L.

January 2020

Deep artificial neural networks are powerful tools with many possible applications in nanophotonics....

Inverse design with flexible design targets via deep learning: Tailoring of electric and magnetic multipole scattering from nano-spheres

Estrada-Real, Ana
Khaireh-Walieh, Abdourahman
Urbaszek, Bernhard
Wiecha, Peter R.

December 2022

10 pages, 9 figuresDeep learning is a promising, ultra-fast approach for inverse design in nano-opti...

Overcoming Limits in Nano-Optical Simulations, Design and Experiments Using Deep Learning

Wiecha, Peter
Larrieu, Guilhem
Lecestre, Aurélie
Muskens, Otto

July 2021

International audienceSubwavelength small particles can be tailored to fulfill manifold functionalit...

A newcomer's guide to deep learning for inverse design in nano-photonics

Khaireh-Walieh, Abdourahman
Langevin, Denis
Bennet, Pauline
Teytaud, Olivier
Moreau, Antoine
Wiecha, Peter R.

September 2023

23 pages, 15 figuresNanophotonic devices manipulate light at sub-wavelength scales, enabling tasks s...

Deep learning in nano-photonics: inverse design and beyond

Wiecha, Peter
Arbouet, Arnaud
Girard, Christian
Muskens, Otto L.

May 2021

Review article of 17 pages, 7 figures, 4 info-boxesInternational audienceDeep learning in the contex...

A newcomer's guide to deep learning for inverse design in nano-photonics

Khaireh-Walieh, Abdourahman
Langevin, Denis
Bennet, Pauline
Teytaud, Olivier
Moreau, Antoine
Wiecha, Peter

September 2023

23 pages, 15 figuresNanophotonic devices manipulate light at sub-wavelength scales, enabling tasks s...

Nanophotonic particle simulation and inverse design using artificial neural networks

Abstract

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Nanophotonic particle simulation and inverse design using artificial neural networks

Abstract

Extracted data

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